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Exergy, Economic, and Life-Cycle Assessment of ORC System for Waste Heat Recovery in a Natural Gas Internal Combustion Engine
(2020-01-01)
In this article, an organicRankine cycle (ORC)was integrated into a 2-MWnatural gas engine to
evaluate the possibility of generating electricity by recovering the engine’s exhaust heat. The operational
anddesignvariableswiththe ...
Combustion and Performance Study of Low-Displacement Compression Ignition Engines Operating with Diesel–Biodiesel Blends
(2020-01-30)
This study investigated the influence of di erent biodiesel blends produced from residual
sunflower oil and palm oil from agroindustry liquid waste on the characteristics of the combustion
process, performance, and ...
Advance Exergo-Economic Analysis of aWaste Heat Recovery System Using ORC for a Bottoming Natural Gas Engine
(2020-01-05)
This manuscript presents an advanced exergo-economic analysis of a waste heat recovery
system based on the organic Rankine cycle from the exhaust gases of an internal combustion engine.
Di erent operating conditions were ...
A comparative energy and exergy optimization of a supercritical-CO2 Brayton cycle and Organic Rankine Cycle combined system using swarm intelligence algorithms
(2020-06-01)
This article presents a multivariable optimization of the energy and exergetic performance of a power generation
system, which is integrated by a supercritical Brayton Cycle using carbon dioxide, and a Simple Organic ...
Thermoeconomic modelling and parametric study of a simple orc for the recovery ofwaste heat in a 2 MW gas engine under differentworking fluids
(2019-10-25)
This paper presents a thermo-economic analysis of a simple organic Rankine cycle (SORC)
as a waste heat recovery (WHR) systems of a 2 MW stationary gas engine evaluating different
working fluids. Initially, a systematic ...
Economic and Exergo-Advance Analysis of aWaste Heat Recovery System Based on Regenerative Organic Rankine Cycle under Organic Fluids with Low GlobalWarming Potential
(2020-03-12)
The waste heat recovery system (WHRS) is a good alternative to provide a solution to the
waste energy emanated in the exhaust gases of the internal combustion engine (ICE). Therefore, it is
useful to carry out research ...